结合水结构和多态性氨基酸共同作用，使不同肽段能够与MHC I类HLA - B53结合。

Bound water structure and polymorphic amino acids act together to allow the binding of different peptides to MHC class I HLA-B53.

作者信息

Smith K J, Reid S W, Harlos K, McMichael A J, Stuart D I, Bell J I, Jones E Y

机构信息

Nuffield Department of Clinical Medicine, Institute of Molecular Medicine, John Radcliffe Hospital, Oxford, United Kingdom.

出版信息

Immunity. 1996 Mar;4(3):215-28. doi: 10.1016/s1074-7613(00)80430-6.

DOI:10.1016/s1074-7613(00)80430-6

PMID:8624812

Abstract

The structure of the human MHC class I molecule HLA-B53 complexed to two nonameric peptide epitopes (from the malaria parasite P. falciparum and the HIV2 gag protein) has been determined by X-ray crystallography at 2.3 angstrom resolution. The structures reveal the architecture of a Pro-specific B pocket common to many HLA-B alleles. Relative to other alleles, the B53 peptide-binding groove is widened by a significant (up to 1.25 angstrom) shift in the position of the alpha 1 helix. Within this groove, bound water molecules, acting in concert with the side chains of polymorphic residues, provide the functional malleability of the MHC, which enables the high affinity/low specificity binding of multiple peptide epitopes.

摘要

已通过X射线晶体学在2.3埃分辨率下确定了与两个九聚体肽表位（来自疟原虫恶性疟原虫和HIV2 gag蛋白）复合的人类MHC I类分子HLA - B53的结构。这些结构揭示了许多HLA - B等位基因共有的脯氨酸特异性B口袋的结构。相对于其他等位基因，B53肽结合槽因α1螺旋位置的显著（高达1.25埃）移动而变宽。在这个槽内，结合的水分子与多态性残基的侧链协同作用，提供了MHC的功能可塑性，这使得能够高亲和力/低特异性地结合多个肽表位。

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结合水结构和多态性氨基酸共同作用，使不同肽段能够与MHC I类HLA - B53结合。

Bound water structure and polymorphic amino acids act together to allow the binding of different peptides to MHC class I HLA-B53.

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